Endogenous Peptides and Learning and Memory Processes
- 1st Edition - January 28, 1981
- Imprint: Academic Press
- Editor: Joe L. Jr. Martinez
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 4 1 4 1 5 2 - 0
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 1 4 4 6 7 - 4
Endogenous Peptides and Learning and Memory Processes presents the role of pituitary and central nervous system peptidergic systems in the modulation of memory and learning. This… Read more
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Request a sales quoteEndogenous Peptides and Learning and Memory Processes presents the role of pituitary and central nervous system peptidergic systems in the modulation of memory and learning. This book discusses the various experimental findings concerning the role of peptides in attention, memory, conditioning, opiate tolerance, and amnesia. Organized into five parts encompassing 26 chapters, this book starts with an overview of the possible chemical relationship between melanocyte-stimulating hormone (MSH) and adrenocorticotropic hormone (ACTH). This text then discusses the complex behavioral activities of ACTH involving processes that serve the adaptive abilities of the organism, such as memory, learning, motivation, attention, and arousal. Other chapters consider the possibility that post-training injection of some hormones may aid retention performance following training in a one-trial inhibitory avoidance task. The final chapter deals with the various types of behavioral tests for studying the central nervous system effects of peptides. This book is a valuable resource for specialists, teachers, clinicians, and researchers in the fields of neuropharmacology, behavioral pharmacology, experimental psychology, and psychopharmacology.
Contributors
Preface
Introduction
Part I ACTH and MSH
Chapter 1 The Distribution of MSH and ACTH in the Rat and Human Brain and Its Relation to Pituitary Stores
I. Historical Introduction
II. Pro-Opiomelanocortin, MSH, and ACTH
III. Assay of α-MSH and ACTH in the Pituitary and the Brain
IV. Immunocytochemical Localization of α-MSH and ACTH in the Brain
V. The Opiomelanocortin Family in Development
VI. The Synthesis of MSH and ACTH by the Brain
References
Chapter 2 Mechanisms of Action of Behaviorally Active ACTH-like Peptides
I. Introduction
II. Effects on Conditioned Behavior or Behavioral Effects
III. In Vivo Fate
IV. Generation of Neuropeptides
V. Receptor Sites
VI. ACTH as a Neuromodulator
References
Chapter 3 Actions of ACTH- and MSH-like Peptides on Learning, Performance, and Retention
I. Introduction
II. ACTH- and MSH-like Peptides and Learning
III. ACTH-like Peptides and Performance
IV. ACTH- and MSH-like Peptides and Retention
V. Concluding Remarks
References
Chapter 4 ACTH Modulation of Memory Storage Processing
I. Modulation of Memory Storage Processes
II. ACTH Effects on Memory Storage
III. Mechanisms Underlying ACTH Memory Modulation
IV. Noradrenergic Memory Modulation
V. Integration of ACTH and NE Memory Modulation
References
Chapter 5 ACTH and Brain Mechanisms Controlling Approach-Avoidance and Imprinting in Birds
I. Introduction
II. Approach-Avoidance Behavior and Imprinting in Birds
III. Conclusions
References
Chapter 6 ACTH and the Reminder Phenomena
I. Introduction
II. ACTH-Induced Alleviation of Retrograde Amnesia
III. Ontogenetic Memory Loss: Reinstatement and ACTH
IV. The Kamin Effect and ACTH-Induced Reactivation
V. Effects of ACTH on Extinction of Aversively Motivated Behavior
VI. State-Dependent Retention
VII. Redintegration
VIII. Clinical Implications of the ACTH-Induced Reminder Phenomena
IX. Conclusions and Musings
References
Chapter 7 ACTH4-9 Analog (ORG 2766) and Memory Processes in Mice
I. Introduction
II. Preliminary Experiment: Effects on Retention and Extinction of One-Way Active Avoidance Conditioning
III. Peptide Effects and Training Level
IV. Central versus Peripheral Effects on Active Avoidance Behavior
V. Peripheral versus Central Administration of ORG 2766 in Appetitive Operant Conditioning
VI. Discussion
References
Chapter 8 Pituitary-Adrenocortical Effects on Learning and Memory in Social Situations
I. Introduction
II. Pituitary-Adrenocortical Effects on Avoidance-of-Attack
III. Pituitary-Adrenocortical Effects on Submissiveness
IV. How Does Corticosterone Affect Behavior in Social Learning-Memory Situations?
V. Concluding Comments
References
Chapter 9 ACTH Analogs and Human Performance
I. Introduction
II. Methodological Issues
III. Task Effects
IV. Physiological Measures
V. Subjective Rating Scales
VI. Conclusion
References
Part II Endorphins
Chapter 10 Cellular Distribution and Function of Endorphins
I. Introduction
II. Distribution of Enkephalins
III. Distribution of β-Endorphin
IV. Effects of Opioid Peptides on Neuronal Activity
V. Structural-Functional Correlations
References
Chapter 11 Endorphin Influences on Learning and Memory
I. Influence of Endorphins on Behavioral Processes: Information Processing as Affected by Biotransformation of β-Endorphin
II. Time Gradient Effects of α- and -γ-Endorphin on Passive Avoidance Behavior
References
Chapter 12 Enkephalin and Endorphin Influences on Appetitive and Aversive Conditioning
I. Introduction
II. Opiate Alkaloids and Naloxone: Aversively Motivated Tests
III. Endorphins and Endorphin Analogs
IV. Conclusions
References
Chapter 13 Endogenous Opioids, Memory Modulation, and State Dependency
I. Introduction
II. Early Evidence That the Primary Role of Endogenous Opioids Might Be in the Regulation of Behavior
III. Effect of Naloxone on Memory Consolidation
IV. Possible Mechanism of the Effect of Naloxone on Consolidation
V. Effect of Opioid Peptides on Consolidation
VI. Training Releases β-Endorphin from the Rat Brain
VII. Electroconvulsive Shock Releases β-Endorphin from Brain but Not Pituitary Gland
VIII. Possible Role of a Physiological Amnesic Mechanism
IX. Final Comment
References
Chapter 14 Facilitation of Long-term Memory by Brain Endorphins
I. Endorphins and Behavior
II. Opiate Receptor Activation and Memory
III. Peptide Effects on Memory
IV. Memory Modulation by Opioid Systems
References
Chapter 15 Endorphin and Enkephalin Effects on Avoidance Conditioning: The Other Side of the Pituitary-Adrenal Axis
I. Introduction
II. Endorphin Effects on Inhibitory Avoidance Conditioning
III. Enkephalin Effects on Active Avoidance Conditioning
IV. Naloxone Reversibility
V. Adrenal Medullary Involvement
VI. Conclusions
References
Part III Vasopressin and Oxytocin
Chapter 16 Central Nervous System Distribution of Vasopressin, Oxytocin, and Neurophysin
I. Introduction
II. Neurons Producing Vasopressin, Oxytocin, and Neurophysin
III. Vascular Projections of Vasopressin, Oxytocin, and Neurophysin Neurons
IV. Neural Projections of Vasopressin, Oxytocin, and Neurophysin Neurons
V. Vasopressin, Oxytocin, and Neurophysin in the Cerebrospinal Fluid (CSF)
VI. Relation of CNS Vasopressin and Oxytocin to Pituitary Stores
VII. Functional Considerations Based on Neuroanatomical Relationships
VIII. Final Remarks
References
Chapter 17 Avoidance Conditioning and Endocrine Function in Brattleboro Rats
I. Introduction
II. Physiological and Hormonal Characteristics of Brattleboro Rats Relevant to the Interpretation of Avoidance Experiments
III. Behavioral Studies of Brattleboro Rats
IV. General Conclusion
References
Chapter 18 Vasopressin, Oxytocin, and Dependence on Opiates
I. Introduction
II. Opiate Action and Learning-Memory Processes
III. Neurohypophyseal Hormones and Opiate Tolerance-Physical Dependence
IV. Neurohypophyseal Hormones and Opiate Dependence (Abuse)
V. Concluding Remarks
References
Chapter 19 Vasopressin and Oxytocin in Learning and Memory
I. Introduction
II. Studies of Structure-Activity Relationships
III. The Physiological Role of Endogenous Neurohypophyseal Hormones in Memory Processes
IV. How Do Vasopressin and Oxytocin Reach their Site(s) of Action?
V. Perspective
References
Part IV Opiates
Chapter 20 Opiate Modulation of Memory
I. Introduction
II. Effects of Opiate Agonists and Antagonists on Retention of Inhibitory and Active Avoidance Learning
III. Interpretation of the Results
IV. Conclusions
References
Chapter 21 Influence of Amygdala Opiate-Sensitive Mechanisms, Fear-Motivated Responses, and Memory Processes for Aversive Experiences
I. Introduction
II. Alteration of Memory Processes by Amygdala-Opiate Manipulations
III. Amygdala Enkephalins: A Focus for Research on the Central Nucleus
IV. Alteration of Fear-Motivated Conditioned Responses by Amygdala Central Nucleus-Opiate Manipulations
V. The Influence of Amygdala-Opiate Mechanisms on Fear-Motivated Responses and Memory: A Common Neural Substrate in the Central Nucleus?
References
Chapter 22 Changes in Brain Peptide Systems and Altered Learning and Memory Processes in Aged Animals
I. Introduction
II. Amine Neurotransmitters and Memory Alterations in Aged Rats
III. Changes in Learning and Memory in Aged Rats
IV. Peptide Modulation of Impaired Memory
V. Opiate Modulation of Memory
VI. Changes with Age in Opiate Receptor Systems
VII. Conclusions
References
Chapter 23 A Two-Process Model of Opiate Tolerance
I. Introduction
II. Tolerance Definitions
III. Morphine Tolerance: Behavioral Models
IV. Behavioral and Physiological Models of Morphine Tolerance: An Integration
References
Part V Other Neuropeptides
Chapter 24 Substance Ρ and Its Effects on Learning and Memory
I. Introduction
II. Posttrial Influences on Learning
III. Discussion
References
Chapter 25 Specific Anatomical and Synaptic Sites of Neuropeptide Action in Memory Formation
I. Background: Reward Systems as Neuronal Substrates for Memory Consolidation
II. Peptides and Memory
References
Chapter 26 Multiple Independent Actions of Neuropeptides on Behavior
I. Introduction
II. Pituitary-CNS Dissociation of Hypothalamic Peptides
III. Pigmentary-Extrapigmentary Dissociation of MSH
IV. Behavioral-Narcotic Dissociation of Opiate Peptides
V. Situational Dissociation of Peptides
References
Index
- Edition: 1
- Published: January 28, 1981
- No. of pages (eBook): 608
- Imprint: Academic Press
- Language: English
- Paperback ISBN: 9780124141520
- eBook ISBN: 9780323144674
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